Balance and Reticence of the Brain

Brain-related human potential is reliant on the ability of a sector (that is, neural substrate) to fully perform. Except for damage, the level of functioning rests on the thickness of neural networks in the substrate, the inhibition or activity of the nearby and/or associated substrates, earlier differentiation, and the level of energy delivered.

The comparative focus of energy in the nervous system is related with sensory awareness, mental performance, autonomic functioning, and motor control. Based upon the relative amounts of activity, substrates are considered inhibited, activated, or dormant. Inactivity or activity is related to the amounts of nutrition and oxygen (in the form of glucose) provided to the substrates cells. Contemporary neuroimaging methods can distinguish the energy levels of the several substrates.

Curtis Cripe, throughout his career in neuroengineering, has employed biofeedback and technology processes to address a variety of neurological and psychological challenges. He is a professional in the field of behavioral medicine and brain development. He is also a leading behavioral medicine and neuroengineering researcher at NTL Group, Inc., in Scottsdale, Arizona. On these topics, Curtis Cripe is also a well-published author who is sought and known throughout the community for his mastery of subject and expert knowledge. The book is focused on an alternative, established, and highly effective technique of repairing brain function identified as the Low Energy Neurofeedback System (LENS).

The human brain is an efficient system that concentrates energy into or eradicates it from the several neural substrates. The comparative balance of concentration of the brain’s restricted blood supply regulates the balance of neural energy, which involves electrical and heat activity and is detected by neuroimaging. As just mentioned, oxygen and glucose and, both of which are supplied by blood in the brain’s vascular system are the two chief requirements that determine the level of activity of a given substrate. They are carried by the brain’s vascular system, which manages just about 13% of the body’s blood supply.

The concentration of blood delivered to particular substrates effects in a deficiency of flow to others. Hence, there is an antithetical relationship regarding the energy levels of nearby substrates. When the energy level of one increases that of adjacent substrates -serving as the most voluntarily available sources of energy decrease. For example, hyperactivity, such as in the case of an intense ACC, which serves as the switch board of one’s thoughts can be as much of a difficulty as under-activity.

Curtis Cripe is always on the front lines of these treatment options and philosophies and technologies. For instance, he employs neuroengineering as a procedure that uses modern applied neuroscience methods to cure cognitive dysfunction. The practice of neuroengineering is composed of remediation methods and general analysis that have developed as a practical application to many advanced medical problems. Curtis Cripe calls the multidimensional combination of analysis, data collection and remediation the Brain Recovery Program. It is an innovative and collaborative program that has many benefits and features, and many in the industry are looking at the potentials of what can be attained now and in the future.